Interactive motion data animation system

1. A method for animating a character figure in a video image memory responsive to stored motion data, said character figure being represented in said memory as having a first plurality of joints and a plurality of links coupled between respective pairs of said first plurality of joints, said plurality of links representing respective limbs of said character figure, said method further responsive to an input goal to animate said character subject to at least one constraint, said method comprising: storing a representation of each of said first plurality of joints in said memory; storing a representation of each of said plurality of links in said memory; storing a representation of the respective positions of said first plurality of joints and said plurality of links in said memory; computing, responsive to said stored motion data, a first set of motions derived from said stored motion data for each of said first plurality of joints respectively; computing, responsive to said input goal, a second set of motions subject to said constraint for each of said first plurality of joints respectively; combining said first set of motions with said second set of motions to form a combined set motions; modifying said stored representation of the positions of said first plurality of joints and said plurality of links in said memory using said combined set of motions; and rendering said stored representation of said links as the limbs of said character figure in said video image memory.

2. A method in accordance with claim 1, further including: computing, responsive to said stored motion data, a third set of motions derived from said stored motion data for each of said first plurality of joints respectively, wherein said stored motion data includes at least first and second motion sequences, said third set of motions being computed from said first and second motion sequences to smoothly blend said first motion sequence into said second motion sequence; combining said third set of motions with said combined first set of motions and said second set of motions to form a second combined set motions; and modifying said stored representation of the positions of said first plurality of joints and said plurality of links in said memory using said second combined set of motions.

3. A method in accordance with claim 2, wherein said third set of motions is computed by fitting a curve between said first motion sequence and said second motion sequence.

4. A method in accordance with claim 2, wherein said third set of motions is computed by fitting a curve between said first motion sequence to a predetermined fixed position of said character figure.

5. A method in accordance with claim 1, wherein said constraint is position.

6. A method in accordance with claim 1, wherein said constraint is alignment.

7. A method in accordance with claim 1, wherein said constraint is obstacle avoidance.

8. A method in accordance with claim 1, wherein said constraint is balance.

9. A method in accordance with claim 1, wherein said constraint is posture.

10. In an interactive method for animating a character figure in a video image memory responsive to stored motion data, said character figure being represented in said memory as having a first plurality of joints and a plurality of links coupled between respective pairs of said first plurality of joints, said plurality of links representing respective limbs of said character figure, said method further responsive to an input goal to animate said character subject to at least one constraint, wherein said interactive method for animating said character figure has at least one adjustable motion parameter, a method for adjusting said adjustable motion parameter in accordance with said stored data, said method comprising: calculating a value of said adjustable motion parameter from said stored motion data; using said calculated value of said adjustable motion parameter in said interactive method for animating a character figure to generate interactive motion data; comparing said stored motion data to said interactive motion data; quantifying the error between said stored motion data and said interactive motion data; comparing said error to a predetermined error value; and modifying said calculated value of said adjustable motion parameter if said error is greater than said predetermined error value; whereby said adjustable motion parameter is adjusted in accordance with said stored motion data.

11. A method in accordance with claim 10, wherein said interactive method for animating a character figure includes the step of generating said interactive motion data from at least one synergy, wherein a synergy is a process which produces a set of joint angle movements subject to said constraint, which joint angle movements attempt to satisfy an input goal.

12. A method in accordance with claim 11, wherein said adjustable parameter is a synergy gain.

13. A method in accordance with claim 11, wherein said adjustable parameter is a synergy strength.

14. In an interactive method for animating a character figure in a video image memory responsive to stored motion data, said character figure being represented in said memory as having a first plurality of joints and a plurality of links coupled between respective pairs of said first plurality of joints, said plurality of links representing respect limbs of said character figure, said method further responsive to an input goal to animate said character subject to at least one constraint, wherein said interactive method for animating said character figure has at least one adjustable motion parameter, a method for adjusting said adjustable motion parameter in accordance with said stored data, said method comprising: calculating stored motion joint angle commands from said stored motion data; determining a stored input goal from said stored motion data; generating interactive motion data using said stored input goal in said interactive method, wherein said interactive method uses at least one synergy, wherein a synergy is a process which produces a set of interactive joint angle movements subject to said constraint, which interactive joint angle movements attempt to satisfy said stored input goal; calculating the error between said stored motion joint angle commands and said interactive joint angle commands; comparing said error to a predetermined error value; and modifying at least one parameter of said interactive method if said error is greater than said predetermined error value; whereby said parameter of said interactive method is adjusted in accordance with said stored motion data.

15. A method in accordance with claim 14, wherein said adjustable parameter is a synergy gain.

16. A method in accordance with claim 14, wherein said adjustable parameter is a synergy strength.

17. A method in accordance with claim 14, wherein said constraint is position.

18. A method in accordance with claim 14, wherein said constraint is alignment.

19. A method in accordance with claim 14, wherein said constraint is obstacle avoidance.

20. A method in accordance with claim 14, wherein said constraint is balance.

21. A method in accordance with claim 14, wherein said constraint is posture.

22. An apparatus for animating a character figure in a video image memory responsive to stored motion data, said character figure being represented in said memory as having a first plurality of joints and a plurality of links coupled between respective pairs of said first plurality of joints, said plurality of links representing respective limbs of said character figure, said apparatus further responsive to an input goal to animate said character subject to at least one constraint, said apparatus comprising: means for storing a representation of each of said first plurality of joints in said memory; means for storing a representation of each of said plurality of links in said memory; means for storing a representation of the respective positions of said first plurality of joints and said plurality of links in said memory; means for computing, responsive to said stored motion data, a first set of motions derived from said stored motion data for each of said first plurality of joints respectively; means for computing, responsive to said input goal, a second set of motions subject to said constraint for each of said first plurality of joints respectively; means for combining said first set of motions with said second set of motions to form a combined set motions; means for modifying said stored representation of the positions of said first plurality of joints and said plurality of links in said memory using said combined set of motions; and means for rendering said stored representation of said links as the limbs of said character figure in said video image memory.

23. An apparatus in accordance with claim 22, further including: means for computing, responsive to said stored motion data, a third set of motions derived from said stored motion data for each of said first plurality of joints respectively, wherein said stored motion data includes at least first and second motion sequences, said third set of motions being computed from said first and second motion sequences to smoothly blend said first motion sequence into said second motion sequence; means for combining said third set of motions with said combined first set of motions and said second set of motions to form a second combined set motions; and means for modifying said stored representation of the positions of said first plurality of joints and said plurality of links in said memory using said second combined set of motions.

24. An apparatus in accordance with claim 23, wherein said third set of motions is computed by fitting a curve between said first motion sequence and said second motion sequence.

25. An apparatus in accordance with claim 23, wherein said third set of motions is computed by fitting a curve between said first motion sequence to a predetermined fixed position of said character figure.

26. An apparatus in accordance with claim 22, wherein said constraint is position.

27. An apparatus in accordance with claim 22, wherein said constraint is alignment.

28. An apparatus in accordance with claim 22, wherein said constraint is obstacle avoidance.

29. An apparatus in accordance with claim 22, wherein said constraint is balance.

30. An apparatus in accordance with claim 22, wherein said constraint is posture.

31. In an interactive apparatus for animating a character figure in a video image memory responsive to stored motion data, said character figure being represented in said memory as having a first plurality of joints and a plurality of links coupled between respective pairs of said first plurality of joints, said plurality of links representing respective limbs of said character figure, said apparatus further responsive to an input goal to animate said character subject to at least one constraint, wherein said interactive apparatus for animating said character figure has at least one adjustable motion parameter, an apparatus for adjusting said adjustable motion parameter in accordance with said stored data, said apparatus comprising: means for calculating a value of said adjustable motion parameter from said stored motion data; means for using said calculated value of said adjustable motion parameter in said interactive apparatus for animating a character figure to generate interactive motion data; means for comparing said stored motion data to said interactive motion data; means for quantifying the error between said stored motion data and said interactive motion data; means for comparing said error to a predetermined error value; and means for modifying said calculated value of said adjustable motion parameter if said error is greater than said predetermined error value; whereby said adjustable motion parameter is adjusted in accordance with said stored motion data.

32. An apparatus in accordance with claim 31, wherein said interactive apparatus for animating a character figure includes the means for generating said interactive motion data from at least one synergy, wherein a synergy is a process which produces a set of joint angle movements subject to said constraint, which joint angle movements attempt to satisfy an input goal.

33. An apparatus in accordance with claim 32, wherein said adjustable parameter is a synergy gain.

34. An apparatus in accordance with claim 32, wherein said adjustable parameter is a synergy strength.

35. In an interactive apparatus for animating a character figure in a video image memory responsive to stored motion data, said character figure being represented in said memory as having a first plurality of joints and a plurality of links coupled between respective pairs of said first plurality of joints, said plurality of links representing respective limbs of said character figure, said apparatus further responsive to an input goal to animate said character subject to at least one constraint, wherein said interactive apparatus for animating said character figure has at least one adjustable motion parameter, an apparatus for adjusting said adjustable motion parameter in accordance with said stored data, said apparatus comprising: means for calculating stored motion joint angle commands from said stored motion data; means for determining a stored input goal from said stored motion data; means for generating interactive motion data using said stored input goal in said interactive apparatus, wherein said interactive apparatus uses at least one synergy, wherein a synergy is a process which produces a set of interactive joint angle movements subject to said constraint, which interactive joint angle movements attempt to satisfy said stored input goal; means for calculating the error between said stored motion joint angle commands and said interactive joint angle commands; means for comparing said error to a predetermined error value; and means for modifying at least one parameter of said interactive apparatus if said error is greater than said predetermined error value; whereby said parameter of said interactive apparatus is adjusted in accordance with said stored motion data.

36. An apparatus in accordance with claim 35, wherein said adjustable parameter is a synergy gain.

37. An apparatus in accordance with claim 35, wherein said adjustable parameter is a synergy strength.

38. An apparatus in accordance with claim 35, wherein said constraint is position.

39. An apparatus in accordance with claim 35, wherein said constraint is alignment.

40. An apparatus in accordance with claim 35, wherein said constraint is obstacle avoidance.

41. An apparatus in accordance with claim 35, wherein said constraint is balance.

42. An apparatus in accordance with claim 35, wherein said constraint is posture.